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Malnutrition & the Refeeding Syndrome:
Why all the Phos? Presented by
Lisa Lopez Steward, MS, RD, CNSC, LD
Clinical Dietitian
Alaska Native Medical Center
Disclosures § Nothing to Disclose.
Objectives
§ 1. List two markers of malnutrition.
§ 2. Identify patients at risk for developing refeeding syndrome.
§ 3. Outline the treatment of refeeding syndrome.
Pre-test
§ 1. Markers of malnutrition include all of the following EXCEPT:§ A. unintended weight loss
§ B. decreased functional strength
§ C. muscle wasting
§ D. low prealbumin
§ 2. Refeeding syndrome (RFS) is characterized by§ A. increased serum phosphorus
§ B. salt and fluid retention
§ C. thiamine toxicity
§ D. decreased insulin levels
§ 3. Complications of RFS include which of the following?§ A. cardiac arrythmias
§ B. respiratory failure
§ C. heart failure
§ D. all of the above
§ 4. In patients at very high risk of developing RFS, energy should initially be restricted to:
§ A. 5-10 kcal/kg
§ B. 15-20 kcal/kg
§ C. 25-30 kcal/kg
§ D. They’re malnourished; there should be no restriction.
Malnutrition
§ Any nutritional imbalance
§ Overnutrition
§ Undernutrition
Undernutrition
§ A lack of proper nutrients to sustain tissue growth, maintenance & repair
§ Caused by
§ Inadequate intake &/or increased requirements
§ Impaired absorption
§ Altered transport
§ Altered nutrient utilization
Pathophysiology of Starvation
§ Decreased carbohydrate intake
§ ↓ insulin secretion
§ Glycogen stores are reduced§ ↑ glucagon release à initiation of gluconeogenesis &
proteolysis
§ ↓ lean muscle mass à functional weakness, weight loss
§ Increased lipolysis
§ Shift from glucose metabolism to fat metabolism (ketogenesis)
§ Phosphate is not required for fat oxidation
§ Metabolic rate decreases (30-50% of normal)
§ ↓ Intracellular vitamin & electrolyte stores
§ Transient increase in circulating levels à immediate urinary excretion in exchange with Na
§ Net loss of K+, Mg, Phos accompanied by Na retention
Metabolism during
Starvation
https://www.namrata.co/case-study-starvation/
Risks of Malnutrition
§ A major contributor to increased morbidity & mortality, decreased function & quality of life
§ Increases the risk of healthcare-associated infections
§ Increases the risk of pressure ulcer development
§ Associated with increased risk of mortality, hospital LOS, & cost of hospitalization
Identification of Malnutrition
§ No single, universally accepted approach to diagnosis & documentation
§ Appetite
§ Weight loss
§ Laboratory values
§ Anthropometrics
§ Screening Tools § Malnutrition Screening Tool (MST)
§ Nutrition Risk in the Critically Ill (NUTRIC)
§ Nutrition Risk Screening 2002 (NRS-2002)
§ Malnutrition Universal Screening Tool (MUST)
§ Mini Nutritional Assessment-Short Form (MNA-SF)
§ Patient-generated Subjective Global Assessment (PG-SGA)
§ Short Nutritional Assessment Questionnaire (SNAQ)
§ Comprehensive Nutrition Assessment tools § Mini Nutrition Assessment (MNA)
§ Subjective Global Assessment (SGA)
§ AND-ASPEN Criteria
ASPEN-AND Criteria
§ Identification of 2+ characteristics
§ Insufficient energy intake
§ Weight loss
§ Loss of muscle mass
§ Loss of subcutaneous fat
§ Localized or generalized fluid accumulation
§ Diminished functional status (as measured by hand grip strength)
§ ***Serum proteins such as albumin and prealbumin are not included as defining characteristics of malnutrition because recent evidence analysis shows that serum levels of these proteins do not change in response to changes in nutrient intake.***
Malnutrition in Acute
Illness/Injury
Non-severe malnutrition
Severe Malnutrition
Energy Intake <75% of needs for >7 days
<50% of needs for >5 days
Weight loss 1-2% in 1 week OR5% in 1 month OR7.5% in 3 months
>1-2% in 1 week OR>5% in 1 month OR>7.5% in 3 months
Body Fat loss Mild Moderate
Muscle Mass loss
Mild Moderate
Fluid Accumulation
Mild Moderate to severe
Grip Strength n/a Measurably reduced
Malnutrition in Chronic
Illness/Injury
Non-severe malnutrition
Severe Malnutrition
Energy Intake <75% of needs for >1 month
<75% of needs for >1 month
Weight loss 5% in 1 month OR7.5% in 3 months OR10% in 6 months OR20% in 1 year
>5% in 1 month OR>7.5% in 3 months OR>10% in 6 months OR>20% in 1 year
Body Fat loss Mild Severe
Muscle Mass loss
Mild Severe
Fluid Accumulation
Mild Severe
Grip Strength n/a Measurably reduced
Malnutrition in Social or
Environmental Circumstances
Non-severe malnutrition
Severe Malnutrition
Energy Intake <75% of needs for >3 months
<50% of needs for >1 month
Weight loss 5% in 1 month OR7.5% in 3 months OR10% in 6 months OR20% in 1 year
>5% in 1 month OR>7.5% in 3 months OR>10% in 6 months OR>20% in 1 year
Body Fat loss Mild Severe
Muscle Mass loss
Mild Severe
Fluid Accumulation
Mild Severe
Grip Strength n/a Measurably reduced
Nutrition-focused Physical
Exam
Nutrition-focused Physical
Exam
Nutrition-focused Physical
Exam
Nutrition-focused Physical
Exam
Treatment of Malnutrition
Feed them!*
*Except…it’s not quite that simple.https://www.independent.co.uk/life-style/food-and-drink/the-science-behind-why-we-overeat-a8149711.html
Refeeding
§ Shift from catabolic state to anabolic state
§ Shift from fat oxidation to carbohydrate utilization
§ ↑ insulin secretion 2’ ↑ carbohydrate intake
§ ↑ production of glycogen, fat, & protein
§ Electrolyte shift from extracellular to intracellular as glucose is metabolized
Refeeding Syndrome (RFS)
§ First described post-WW2
§ A normal physiologic reaction
§ Usually occurs within the first
72h of refeeding
§ Pts on enteral or parenteral
nutrition support at higher risk
The Journal of Nutrition, Volume 135, Issue 6, June 2005, Pages 1347–1352, https://doi.org/10.1093/jn/135.6.1347
RFS, cont.
§ Characterized by:
§ Low serum electrolytes (K+, Mg, and P)
§ Increased serum glucose
§ Vitamin depletion
§ Fluid imbalance
§ Salt retention
§ Impaired organ function
§ Cardiac arrhythmias
§ No standardized definition
§ Depletion of electrolytes occur at varying degrees and therefore variable clinical effects
§ Unknown incidence/prevalence
§ Central defining criteria is severe hypophosphatemia (<0.32 mMol/L or <1 mg/dl)
§ Severity is associated with the degree of malnutrition
Stanga et al. Eur J Clin Nutr. 2008; 62: 687-694.
Phosphorus
§ Phosphorus
§ ATP production
§ 2,3-diphosphoglycerate
§ Regulates the release of oxygen from Hgb
§ Phosphorylation of glucose (required for glycolysis)
§ NOT required for fat oxidation
§ Hypophosphatemia
§ All-cause mortality of 18.2% compared to 4.6% in pts without hypophosphatemia
§ Impaired neuromuscular fxn (paresthesia, seizures, hypoventilation à respiratory failure)
§ Increased insulin resistance
§ Impaired ability to release O2 to target organs
Magnesium & Potassium
§ Potassium
§ Main intracellular cation
§ Balances negative charges on intracellular proteins
§ Magnesium
§ Acts as a cofactor for final phosphorylation of ATP
§ Hypokalemia & hypomagnesemia
§ Rapid cellular uptake 2’ insulin
§ May be worsened by diarrhea 2’ gut atrophy associated w/underlying malnutrition
§ Neuromuscular dysfunction
§ Cardiac arrhythmias & cardiac arrest
§ The most common cause of death in RFS
Sodium &Fluid Balance
§ Salt & Fluid retention
§ Na is retained during periods of starvation, stress, & inflammation
§ Na-K+-ATPase: as K+ is pumped back into the cell during refeeding, Na is pumped out
§ Introduction of CHO/high concentrations of insulin àdecreased renal sodium excretion and increased water retention
§ Excess fluid retention à peripheral edema, heart failure,
pulmonary & brain edema
§ Can further aggravate pre-existing pathology
§ Peripheral edema due to low protein stores
§ Cardiac atrophy 2’ prolonged malnutrition
§ Alcoholic cardiomyopathy
§ Thiamine deficiency (wet beriberi)
Thiamine
§ Thiamine
§ Water-soluble vitamin; half-life 9-18 days
§ Required to convert pyruvate to acetyl-coA (TCA cycle)
§ Without thiamine, pyruvate & lactic acid accumulate
§ Lactic acidosis à N/V, abd pain
§ Thiamine deficiency
§ Wernicke’s encephalopathy
§ Peripheral neuropathy
§ Volume overload, peripheral edema
§ CHF 2’ thiamine deficiency is more pronounced in pts with reduced cardiac muscle mass 2’ malnutrition
Outcomes
§ Increased mortality
§ Higher incidence of adverse clinical outcomes
§ Unplanned readmissions
§ Transfer to ICU
§ Prolonged hospital stay
Can you identify it?
§ Respiratory failure
§ Seizures
§ Cardiac arrythmias
§ Peripheral edema
§ Heart failure
§ Peripheral neuropathy
§ Altered mental status
§ Electrolyte disturbances
§ In a 2019 study, only 14% of 4th-year medical students and young physicians were able to identify RFS whengiven a case vignette.
Janssen et al. Eur J Clin Nutr. 2019.
Prevention & Treatment of
RFS
§ 1. Identify patients at risk.
§ 2. Prevent RFS during nutrition therapy
Risk Assessment
Pt has 2 or more MINOR risk
factor
Pt has 1 or more MAJOR risk
factors
Pt is at VERY HIGH RISK
BMI <18.5 BMI <16 BMI <14
Unintentional wtloss >10% x3-6 months
Unintentional wtloss >15% x3-6 months
Unintentional wtloss >20%
Little or no nutritional intake >5 days
Little or no nutritional intake >10 days
Little or no nutritional intake >15 days
History of EtOH or drug use (insulin, chemotherapy, diuretics)
Low serum levels of K+, PO4, or Mg prior to feeding
Risk Assessment,
cont.
§ Specific populations at high risk:
§ Hunger strike
§ Recent severe diet
§ Hx bariatric surgery
§ Short bowel syndrome
§ Cancer patients
§ Frail elderly pts w/chronic debilitating disease
Nutrition Therapy
§ Calorie restriction
§ Decreased 60-day mortality w/hypocaloric feeds in critically ill pts w/RFS
§ Fluid & Electrolyte Management
§ Micronutrient Repletion
Doig et al. Lancet Respir Med. 2015.
Calorie Restriction
§ Low risk (1 minor risk factor)
§ 15-25 kcal/kg x3 days
§ Increase to goal rate by day 5
§ High risk (1 major or 2 minor risk factors)
§ 10-15 kcal/kg x3 days, then
§ 15-25 kcal/kg x2 days, then
§ 30 kcal/kg x1 day, then
§ Goal kcals by day 7
§ Very high risk
§ 5-10 kcal/kg x3 days, then
§ 10-20 kcal/kg x3 days, then
§ 20-30 kcal/kg x3 days, then
§ Goal kcals by day 10
Fluid Management
§ Strive to maintain zero balance
§ Low risk
§ 30-35 ml/kg
§ No sodium restriction
§ High risk
§ 25-30 ml/kg x3 days, then
§ 30-35 ml/kg
§ Restrict Na to 1 mMol/kg/day x7 days
§ Very high risk
§ 20-25 ml/kg x3 days, then
§ 25-30 ml/kg x3 days, then
§ 25-35 ml/kg thereafter
§ Restrict Na to 1 mMol/kg/day x10 days
Electrolyte management
§ Aggressive monitoring
§ At least daily x3 days, depending on risk
§ Consider empiric phosphorus supplementation in high risk pts
§ 0.3-0.6 mMol P/kg/day
§ Replete K+/Mg only when low
§ 1-1.5 mMol K+/kg/day
§ 0.2-0.4 mMol Mg/kg/day
Micronutrient Repletion
§ 200-300 mg thiamine daily x5 days
§ Start prior to dextrose or nutrition initiation
§ MVI daily x10 days
§ Check other values and replace PRN
§ Vit D
§ B12
§ Folate
§ Do NOT replace Fe in the 1st 7 days H
§ May worsen hypokalemia
§ Parenteral Fe may induce or prolong hypophosphatemia
Caveat
§ “Due to a lack of large, randomized trials, the current literature confirms the clinical consequences but not the efficacy of measures used to prevent and treat refeeding syndrome.”
Reber et al. J Clin Med. 2019.
Post-test
§ 1. Markers of malnutrition include all of the following EXCEPT:§ A. unintended weight loss
§ B. decreased functional strength
§ C. muscle wasting
§ D. low prealbumin
§ 2. Refeeding syndrome (RFS) is characterized by§ A. increased serum phosphorus
§ B. salt and fluid retention
§ C. thiamine toxicity
§ D. decreased insulin levels
§ 3. Complications of RFS include which of the following?§ A. cardiac arrythmias
§ B. respiratory failure
§ C. heart failure
§ D. all of the above
§ 4. In patients at very high risk of developing RFS, energy should initially be restricted to:
§ A. 5-10 kcal/kg
§ B. 15-20 kcal/kg
§ C. 25-30 kcal/kg
§ D. They’re malnourished; there should be no restriction.
References
§ Friedli N, Stanga Z, Culkin A et al. Management and prevention of refeeding syndrome in medical inpatients: An evidence- and consensus-supported algorithm. Nutrition. 2018;47(13-20).
§ Friedli N, Odermatt J, Reber E et al. Refeeding syndrome: update and clinical advice for prevention, diagnosis, and treatment. Curr Opin Gastroenterol. 2019;35(00):epub ahead of print.
§ Friedli N, Baumann J, Hummel R et al. Refeeding syndrome is associated with increased mortality in malnourished medical inpatients. Medicine. 2020;99:1-9.
§ Hipskind P, Rath M, JeVenn A. Correlation of new criteria for malnutrition assessment in hospitalized pateitns: AND-ASPEN versus SGA. J Am Coll Nutr. 2019. DOI: 10.1080/07315724.2019.1699476.
§ Hipskind, P, Galang M et al. Nutrition-focused physical exam: an illustrated handbook. Hamilton, C,Ed. American Society for Parenteral and Enteral Nutrition, 2016.
§ McKnight CL, Newberry C, Sarav M et al. Refeeding syndrome in the critically ill: a literature review and clinician’s guide. Curr Gastroenterol Rep. 2019;21:58-64.
§ National Institute for Healthcare and Excellence. Nutrition support for adults: oral nutrition support, enteral tube feeding and parenteral nutrition. 2006. www.nice.org.uk/guidance/cg32
§ Reber E, Friedli N, Vasiloglou MF et al. Management of refeeding syndrome in medical inpatients. J Clin Med. 2019;8:2202-2219.
§ Skipper A, Coltman A, Tomesko J. Position of the Academy of Nutrition and Dietetics: Malnutrition (undernutrition) screening tools for all adults. J Acad Nutr Diet. 2019;article in press. https://doi.org/10.1016/j.jand.2019.09.011
§ White JV, Guenter P, Jensen G et al. Consensus statement of the Academy of Nutrition and Dietetics/American Society for Parenteral and Enteral Nutrition: Characteristics recommended for the identification and documentation of adult malnutrition (undernutrition). J Acad Nutr Diet. 2012;112:730-738.
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